Induction of antiviral resistance and stimulary effect by oligochitosan in tobacco

Oligochitosan was applied by spraying it on tobacco leaves for inhibition of tobacco mosaic virus (TMV). The maximum inhibition of TMV by oligochitosan was observed when inoculation occurred at 24 h after spraying 50 μg ml⁻¹ oligochitosan. The production of H₂O₂ and NO in epidermal tobacco cells induced by oligochitosan was investigated by epidermal strip bioassay and LSCM, using cell permeable fluorophore diaminofluorescein diacetate (DAF-2D) and 2′,7′-dichlorofluorescin diacetate (H₂DCF-DA), respectively. Epidermal tobacco cells treated with oligochitosan resulted in a strong increase of intracellular NO and H₂O₂. Oligochitosan and NO donor sodium nitroprusside (SNP) induced the defense reaction against tobacco mosaic virus (TMV), and increased phenylalanine ammonia-lyase (PAL) activity. Co-treatment of the tobacco cells with oligochitosan and NO scavenger CPTIO blocked the inducing resistance. The results indicated that the defense response induced by oligochitosan was connected with NO pathway.     

Resistance mechanisms and associated mutations in acetylcholinesterase genes in Sitobion avenae (Fabricius)

Wheat aphid, Sitobion avenae (fabricius), is one of the most important wheat pests and has been reported to be resistant to commonly used insecticides in China. To determine the resistance mechanism, the resistant and susceptible strains were developed in laboratory and comparably studied. A bioassay revealed that the resistant strain showed high resistance to pirimicarb (RR: 161.8), moderate reistance to omethoate (32.5) and monocrotophos (33.5), and low resistance to deltamethrin (6.3) and thiodicarb (5.5). A biochemistry analysis showed that both strains had similar glutathione-S-transferase (GST) activity, but the resistant strain had 3.8-fold higher esterase activity, and its AChE was insensitive to this treatment. The I₅₀ increased by 25.8-, 10.7-, and 10.4-folds for pirimicarb, omethoate, and monocrotophos, respectively, demonstrating that GST had not been involved in the resistance of S. avenae. The enhanced esterase contributed to low level resistance to all the insecticides tested, whereas higher resistance to pirimicarb, omethoate, and monocrotophos mainly depended on AChE insensitivity. However, the AChE of the resistant strain was still sensitive to thiodicarb (1.7-fold). Thus, thiodicarb could be used as substitute for control of the resistant S. avenae in this case. Furthermore, the two different AChE genes cloned from different resistant and susceptible individuals were also compared. Two mutations, L436(336)S in Sa.Ace1 and W516(435)R in Sa.Ace2, were found consistently associated with the insensitivity of AChE. They were thought to be the possible resistance mutations, but further work is needed to confirm this hypothesis.     

ELISE测定猪尿、猪肝中克伦特罗残留的研究

ELISA(酶联免疫吸附法)测定猪尿、猪肝中违禁药物克伦特罗残留量影响实验结果表明,德国拜发与北京望尔生产的两种ELISA试剂盒具有操作简单、时间短、成本低、敏感度高等特点。在室温20-22℃条件下,试验制备过程中必须做到控温度、控转速、控流速及洗板过程中应注意事项,这样可大大提高在实际操作过程中检测的准确性。     

重组GP5AB蛋白间接ELISA检测PRRSV抗体方法的研究

利用GST-GP5AB重组蛋白作为包被抗原,通过反应条件优化,建立了用于检测猪繁殖与呼吸综合征病毒(PRRSV)抗体的间接ELISA方法。抗原最适包被浓度为2μg/mL,最佳封闭液为0.15%BSA,37℃封闭2 h后,再4℃封闭24 h,血清最适稀释度为1∶200,其作用时间为60m in,酶标抗体最适稀释度为1∶20 000,最适作用时间为90 m in,37℃显色10 m in,S/P≥0.284为阳性,S/P≤0.26为阴性,介于二者之间为可疑的判定标准。该抗原与猪其他4种临床症状类似的疾病的阳性血清反应呈阴性。批内和批间重复性试验结果,变异系数均小于7%,表明本方法具有较好的特异性和重复性。应用本方法初步检测了一些疫苗免疫仔猪血清样品,并与重组N蛋白和PRRSV抗原同时进行比较,结果显示3种抗原检测的结果基本一致。     

多年生黑麦草高频再生体系的建立及优化

从外植体预处理方式、基本培养基、激素浓度等方面着手,对多年生黑麦草愈伤组织诱导、继代、不定芽分化及再生过程中的影响因素进行了研究,提高了再生频率。结果如下：切取胚端半粒种子,经75%乙醇处理1min,0.1%HgCl处理15min,在经无菌水清洗4～6次后接种方式较好;愈伤组织诱导培养基以MS＋2,4—D 8.0 mg/L（或另添加甘露醇25 g/L）为佳;愈伤组织接种于MS＋2,4—D 8.0mg/L＋甘露醇25 g/L上进行1～2次继代后于NB＋6—BA2.0 mg/L上进行分化;不定芽转接至MS＋6—BA2.0 mg/L上进行扩繁或于1/2MS＋NAA0.5mg/L＋IAA0.5mg/L上进行生根。     

猪繁殖与呼吸障碍综合征病毒基因芯片检测技术的建立与优化

根据猪繁殖与呼吸综合征病毒（PRRSV）的核衣壳蛋白编码基因序列设计了一对特异性引物P1／P2。扩增出大小为294bp的目的片段；再针对这个基因片段。设计合成4条寡核苷酸探针。其中反向引物的5’端用荧光素Cy3标记。以荧光标记不对称PCR技术为基础。通过将单链PCR产物与芯片杂交实现对PRRSV的检测。建立PRRSV的基因芯片检测方法。利用该方法对39份猪组织样品进行检测。与RT—PCR检测方法相比。本方法具有良好的特异性和敏感性。试验结果表明用该方法快速检测病料组织中PRRSV是可行的，对该病的进行快速诊断和分子流行病学调查具有重要意义。     

一步法实时定量RT-PCR检测小反刍兽疫病毒方法的建立

建立了检测小反刍兽疫病毒的快速、特异的基于Taqman的一步法实时定量RT-PCR方法。通过对GenBank已公布的小反刍兽疫病毒N基因序列进行序列比较分析,设计了一对特异性引物和一条Taqman探针。利用这对引物和探针对来自不同疫源地的小反刍兽疫病毒RNA样本进行检测,都获得了特异性扩增,但是,不与牛瘟病毒、海豚麻疹病毒等其他种的麻疹病毒属病毒发生交叉反应。本方法具有高度灵敏性,最低可检测到810拷贝的RNA模板。在模板浓度为8.1×102到8.1×108拷贝范围内,都呈现良好的线性关系,而且无论是组内和或组间重复的变异系数都很低。     

陕西省鸡肾型传染性支气管炎病毒的分离鉴定

从临床表现呼吸道传染病的20个发病鸡群中先后分离出18株病毒,通过鸡胚感染、血清学试验、分子生物学试验、动物回归试验证明其中13株是冠状病毒科的鸡传染性支气管炎病毒,3株为新城疫病毒,2株为H9禽流感病毒。该13株中的BJ2、FF2、YL2、B01、G5、YX、WH、WG分离毒具有很强的嗜肾性和致病力,这8个陕西流行株的血清型与W118毒株相同,而与IBVGray株、W93株有一定的差异。结果表明,陕西地区主要流行鸡肾型传染性支气管炎,且流行株具有强致病力。     

产前不同营养水平对围产期健康奶牛血清总胆红素、蛋白及转氨酶的影响

将健康的围产期奶牛30头随机分为三组，分别于产前28d开始饲喂NRC标准日粮（营养水平100％组，即Ⅰ组）、NRC标准增加20％日粮（营养水平120％组，即Ⅱ组）和NRC标准减少20％日粮（营养水平80％组，即Ⅲ组），产后各组奶牛均饲喂标准泌乳日粮，至产后56d结束，观察干奶期不同营养水平对围产期健康奶牛血清总胆红素、蛋白及转氨酶的影响。试验结果表明，围产期是机体生理状况处于剧烈变化的时期，奶牛产后的蛋白质代谢活动、转氨酶活性较产前明显增强；但健康奶牛均能通过调整糖代谢、脂代谢和蛋白质代谢，促进能量与营养物质间的相互转化，适应机体的各种生理变化。     

液相色谱-质谱联用技术在检测食品中兽药残留的应用

动物性食品安全问题现已成为一个全球性的议题。动物性食品药残超标、安全性差的问题十分突出。建立一种准确、灵敏、可靠的分析动物性食品中兽药残留的方法刻不容缓。介绍了液相色谱-质谱联用技术(LC-MS)应用于动物性食品中几种常见兽药残留的检测方法。